Subjects overview
This program can be completed in 2 years (6 semesters)
This program can be completed in 2 years (6 semesters)
Students must complete three (3) subjects plus the Beyond Bond Program.
In this subject, students will be introduced to critical thinking and clear expression. They will evaluate arguments, identify assumptions, judge patterns of inference, and recognise and apply various methods of reasoning. Students will learn how to clarify and visually represent their thinking to make better decisions, evaluate and use evidence, and communicate more effectively in their writing and speaking. Using these skills, students will structure and write an academic essay and deliver an oral presentation.
Read moreIntegrity, and the courage and capability to act on one’s sense of responsibility, are key components of a thriving life. Responsibility, Integrity and Civic Discourse fosters students’ lifelong commitment to responsible discourse and action in all spheres of human interaction, recognising the global aspect to contemporary citizenship. Students explore the complex relationship between character, responsible action, and creative critical thinking, learning how to reflect on and articulate their unique sense of global citizenship and responsibility. By accentuating the importance of justification and articulation of the reasons for our actions, students exercise their critical, communicative, and cooperative capabilities so that they can thrive with integrity in the multiple contexts of action they will face as private, civic, professional, and global citizens.
Read moreIn today's work and study environments, individuals often encounter complex, open-ended problems that necessitate collaboration in both physical and virtual realms and across sectors and specialisations. In Collaboration for Global Change, students engage collaboratively to craft genuine solutions for global issues. In this context, students link their endeavours to specific sustainable development goals, thus positioning their actions as contributions to global citizenship. As they learn to defend their ideas and perspectives, students apply critical thinking, design thinking, problem-solving, and communication skills within a problem-based learning environment. This comprehensive approach equips them with the necessary skills and mindset to excel in future work, academic pursuits, and global initiatives.
Read moreTo keep up with the ever-changing work landscape, we aim to help our students future-proof their careers by developing broader employability skills that are actively sought out by employers. Unique to our University, Beyond Bond is a compulsory professional development program with a practical, activity-based approach that is integrated into all undergraduate degrees.
Students must complete the following one hundred and forty credit points (140CP) of subjects.
This subject introduces students to the fundamentals of chemistry as they apply to the health and biomedical sciences. The subject includes the essential components of inorganic, physical and organic chemistry with an emphasis on the understanding and application of principles and processes.
Read moreThis subject provides students with an introduction to the disciplines of human anatomy and physiology. The organisation of the human body, from cells to tissues and organs, and the relationships between anatomy and physiology are emphasised. A detailed study into the physiology of nerve, muscle, bone and connective tissue is a focus, alongside an introduction to anatomical terminology, arthrology, the skull and the upper limbs. An overview into the concepts of homeostasis and the control of body systems is also provided. Learning activities will provide students with the foundational knowledge and skills required in order to undertake further study into the body’s systems.
Read moreThis subject provides a detailed understanding of the anatomy and physiology of the cardiovascular, respiratory, and urinary systems of the body, with emphasis on the relationship between structure and function. Anatomy of the heart and great vessels, lungs, thorax, kidneys, and urinary tract is detailed and integrated with the function of these organ systems. Topics include the cardiac cycle, physiology of the circulation, mechanics of breathing, gas exchange and transport, and renal physiology. The regulation of the systems and how they interact to maintain fluid, acid-base, and circulatory homeostasis is examined.
Read moreThis subject focuses on the structure and function of the musculoskeletal, nervous and hormonal control systems of the body and their interaction with the internal and external environments. Students undertake an integrated study of the anatomy and function of the musculoskeletal system of the axial and appendicular skeleton, the major structural components of the central nervous system and the neurohormonal axis. The material presented also explains how sensations are recorded and interpreted, movements are controlled and the way the body regulates and integrates body function via the nervous and endocrine systems. There is also some coverage of the clinical aspects of disorders associated with control systems.
Read moreChemistry for Living Systems provides students with a solid foundation in chemistry required for further study in biomedical, exercise, sport and health science. The curriculum covers atomic structure, chemical bonding, solutions & equilibria, chemical compounds, stoichiometry, types of reactions such as Redox and Acid/Base and thermodynamics. It also has a substantial organic chemistry component as well as basic mathematics skills. This subject aims to teach students the basic components of biological, physical and organic chemistry.
Read moreThis subject will introduce students to the role of cell communication, cell division, the extracellular matrix and the arrangement of cells in organ systems and cellular differentiation. Students will learn about the structure and function of the cell, the difference between prokaryotes and eukaryotes, and the role of cellular organelles, compartmentation and membranes in cellular function. In addition, they will be introduced to the role of major macromolecules within cells, such as proteins, carbohydrates, lipids and nucleic acids. The subject will provide the necessary foundational knowledge for further subjects in the area of cellular and molecular biology and physiology.
Read moreThis subject introduces students to the study of the organisms responsible for infectious diseases. Students will acquire a knowledge of the different types of bacteria, viruses, fungi and parasites that are responsible for infections in humans, and some basic skills in identifying some of these organisms. Specialised topics to be covered include normal flora, antibiotic resistance and the use of genetic engineering and recombinant technology. This subject will be an important foundation for studies of the immune system that will follow.
Read moreThis subject introduces the basic concepts behind DNA structure, replication and gene expression, with an emphasis on human disease. Mechanisms of mutation and DNA repair will be examined and their consequences discussed. Case studies for specific genetic diseases will be employed to demonstrate single gene defects, complex multi-factorial diseases and chromosomal disorders. Clinical commentary on important disorders, including cystic fibrosis, achondroplasia, Fragile X, trisomy 21, etc. will be provided throughout the lecture series. More specialised topics including inborn errors of metabolism, mitochondrial disorders and the genetic basis of cancer and ageing will also be presented. Finally recent molecular advances in gene therapy and the Human Genome Project will be examined in relation to ethical, legal and social issues relevant to medical genetics. Students will also acquire standard laboratory techniques used in DNA diagnostic tests.
Read moreThis subject covers the essential elements of human gastrointestinal and reproductive system anatomy and physiology. Central to these systems is their regulation of function by the endocrine system. Topics covered include the anatomy, histology and physiology of the organs of the digestive system including the liver, pancreas, gall bladder and intestines; the male and female reproductive systems, ovarian and uterine cycles, pregnancy and fetal development; function of major endocrine organs.
Read moreThis subject focusses on issues of global health in the 21st century. It includes examining public health approaches that are practical and effective in the context of developing countries compared and contrasted to those that may be applicable in developed countries including Australia.
Read moreAustralia's Health Issues and Priorities introduces students to Australia’s national health priority areas, providing them with an understanding of the epidemiological profile and burden of disease for each health issue. It will enable students to evaluate health issue causality using the determinant approach and to use this evaluation to identify interventions and opportunities to improve health across the health system. Students will develop an understanding of the social determinants of health and their impacts on health outcomes, and explore the roles, responsibilities, practice areas, and expertise of the major health professions in Australia. In addition, students will hear from a multidisciplinary team of educators and guests and be guided to consider the current and future challenges that priority health issues pose for health professionals and researchers.
Read moreHealth communication is the science and art of using effective communication skills to advance the health and well-being of people and populations. It is a fundamental skill for competent health professionals that is continuously developed throughout one’s career. In this subject, you will acquire foundational health communication skills and professional attributes essential to providing person-centred healthcare to people of diverse backgrounds. This includes developing key communication skills when conducting a health-related assessment, planning health-related treatment, and disseminating health-related information. As such, we will explore the science of health communication and its best practice, inclusive of shared decision-making and communicating during challenging situations common to healthcare settings. We will also discover the art of health communication by developing your interpersonal skills and emotional intelligence to build effective relationships. Health communication skill development in this subject is fostered by developing your reflective practice skills and ability to give and receive feedback effectively via participation in small group, active and authentic learning experiences, such as simulations.
Read moreThis subject examines the relationship between food, nutrition and human health. It provides an introduction to nutrients, nutrient food sources, nutrient functions and deficiency states and the role of nutrition in human health and development. Students use this knowledge to critically examine major nutrition challenges of our time, including obesity, micro-nutrient malnutrition and the role of nutrition in human performance.
Read moreThis subject introduces students to the science and profession of psychology. The subject overviews theory and research across a number of domains within the discipline (e.g., Biological Psychology and Personality) and describes how research in these domains contributes to our understanding of human behaviour. This subject also aims to develop a critical thinking perspective on issues and findings in psychological research.
Read moreStudents must take HPER12-101 if undertaking this program without the major or minor. All other students must complete STAT11-112.
This subject aims to develop students’ foundational skills in the identification, critical analysis and, application of research relevant to the health-related research continuum (laboratory bench, human performance, injury prevention/rehabilitation and population health), inclusive of quantitative and qualitative research paradigms. This subject has been designed to specifically develop research and research appraisal competencies relevant to careers in health-related professional practice and health and/or sport science research.
Read moreDesigned to foster the development of foundational mathematical and statistical skills necessary for subsequent quantitative subjects in the Bond Business School. This includes applications of calculus, probability, discrete and continuous random variables, sampling distributions, hypothesis testing, and application of the central limit theorem to large sample inference and data analytics. The use of popular statistical computing packages is integral to providing an applied approach to these topics.
Read moreStudents must choose sixty credit points (60CP) of subjects from the following electives.
Medical Biochemistry 1 has been specifically designed to build on students' knowledge of chemistry as preparation for the more specialised field of biochemistry. The over-arching learning theme is to gain an in-depth knowledge of biomolecular structure and the structure/function relationship of biomolecules. A modern teaching style is applied to accommodate varied learning styles and combines forums, narrated powerpoints, screencasts and group learning sessions. Key learning outcomes are facilitated in a technology-enhanced environment to enhance understanding, including problem-based learning and a molecular modelling assignment. Students will gain a detailed understanding of buffer systems, enzyme kinetics, regulation and mechanisms as well as key intracellular signalling cascades. The subject incorporates biochemical laboratory techniques such as a number of chromatography and spectroscopy techniques.
Read moreThis subject introduces students to the practical application of clinical laboratory medicine in the diagnosis and monitoring of disease. It is designed to complement students' study of subjects such as pathophysiology, microbiology, biochemistry and critical reasoning by applying this knowledge base to the investigation of disease. The content links the differential diagnosis of various common acute and chronic diseases including renal failure, hepatitis, type 2 diabetes mellitus, skin cancer, anaemia and urine tract infection, with the testing that is commonly used, and illustrates the strengths and weaknesses of laboratory testing. The concepts of biological and analytical variation as they apply to the determination of reference intervals and the interpretation of results are explored. The problems associated with population and case based screening, diagnostic sensitivity, and the principles of evidence based medicine are also discussed.
Read moreBiological and Physical Chemistry is designed to further students' knowledge in higher level Chemistry principles required for undertaking subjects in Biochemistry and Medical Chemistry. Building on the content covered in "Chemistry for Living Systems", the curriculum covers important aspects of physical chemistry such as thermodynamics, light and the gas laws; electrochemistry; molecular orbital theory and reaction kinetics. It has a substantial organic chemistry component as well as further developing students' practical competencies.
Read moreThis subject provides an introduction to the pathologic basis of disease and drug treatment, and draws together knowledge gained from prerequisite subjects into the study of the aetiology and pathogenesis of disease. Students will be introduced to concepts of cellular injury, inflammation and necrosis. The fundamentals of pharmacology including targets of drug action, absorption and metabolism of drugs and drug development will also be detailed. This provides a platform for commencing the integrated study of pathophysiology, pathology and drug treatment of various disorders, beginning with pain, inflammation and neoplasia.
Read moreMedical Biochemistry 2 has been designed to develop students' knowledge acquired in Medical Biochemistry 1 in the area of human metabolism through the key catabolic and anabolic metabolic pathways. Students will gain insight into the principles of bioenergetics and regulatory aspects of integrated metabolism. Students will also apply their knowledge in a technology-enhanced learning environment as well as small group case studies to examine how metabolism changes in the transition from healthy to diseased states and the body's response to exercise and trauma. Students will enhance their practical and in modern biochemical techniques (chromatography, spectrophotometric kit assays). Students will work in small groups using higher order critical thinking skills to solve case studies.
Read moreThe aim of this subject is to apply and further advance knowledge and critical thinking skills that students have developed throughout their degree program. Students will be required to think across disciplines (including anatomy, physiology, cell biology, genetics, biochemistry, pharmacology, pathology, immunology and microbiology) in their quest to understand each disease mechanism. This subject applies problem-based learning (PBL) as its central tenet to promote active and self-directed learning.
Read moreIn this subject, students will learn about the regulation of gene expression, the human genome and the techniques that are available to study genes. Students will be introduced to the tools of bioinformatics and use these to analyse human genes and genetic diseases. Advanced studies in the molecular biological techniques used to investigate patterns of gene expression will be an important part of this subject. This subject will interest students who wish to undertake a career in a research or a biomedical laboratory setting.
Read moreThis subject provides students with a foundation in the cells and molecules involved in the immune system, and how these key actors work together to protect humans against invading micro-organisms. Case studies are a key learning resource, with students actively embarking into a problem based learning (PBL) approach, and incrementally being introduced to real applied clinical problems including hypersensitivities, immune deficiencies, autoimmune disease, infections, transplantation and tumour immunological responses. Lecture content will support PBL and laboratory sessions.
Read moreTo effectively navigate, work in, and improve health systems, it is essential to understand how they are structured and operate. In this subject, you will learn about the building blocks of the Australian health system to understand how it works, who the key players are, how decisions on resources allocation are made, and identify contemporary health system challenges. You will measure how well Australia’s health system is working to improve population health and contrast it to selected international comparators. To promote equitable health systems, you will explore the way in which the diverse population interacts with and accesses health services.
Read moreHealthcare is evolving rapidly resulting in improvements in health and wellbeing for many people. At the same time, inequalities mean that healthcare access and outcomes are inequitable for people from a range of backgrounds. This subject will explore key drivers of changes in healthcare including patient-centred practice, advocacy, and new models of healthcare provision. These drivers will be explored in the current healthcare context along with their impact on healthcare delivery, policies and outcomes. Learning activities will focus on exploring the literature and policy drivers supporting healthcare change, and cases will be used to highlight success stories and cautionary tales to enable students to critically evaluate evolving directions in healthcare.
Read moreThis subject provides students with an understanding of the relationship between nutrition, health and exercise performance. Students will develop an understanding of nutrient metabolism during exercise and the role of food, fluid and nutrition supplements in enhancing exercise performance, training and recovery. Current nutrition recommendations for overall health and well-being will also be covered along with nutrition and physical activity guidelines for modifying body composition and preventing and managing chronic disease.
Read moreThis subject applies knowledge of human physiology and biochemistry to examine the physiological and metabolic activity and function of nutrients in the context of human health, growth and development across the life-cycle. This subject provides a nutrition science basis for further applications in health care and professional practice.
Read moreThis subject introduces students to the science and profession of psychology. The subject overviews theory and research across a number of domains within the discipline (e.g., Learning and Social Psychology) and describes how research in these domains contributes to our understanding of human behaviour. This subject also aims to develop a critical thinking perspective on issues and findings in psychological research.
Read moreThis subject explores human love and relationships from a scientific perspective. It also examines biological and behavioural aspects of sexuality, including sexual anatomy, gender, sexual orientation, erotica and pleasure. Students learn how to build and maintain healthy relationships, improve relationship communication and explore the science of love and attraction.
Read moreThis subject introduces biological psychology, the branch of psychology that seeks to understand human and animal behaviour in terms of brain activity and related nervous system structures. Major research findings in biological psychology have significant implications for medical, psychiatric, and clinical psychological treatments and philosophical issues such as the relationship between mind and brain. This subject deals with the biological bases of human behaviour, including the nervous system, especially the brain and the hormonal system. Influences on these systems, such as injury, illness and drugs, are also considered. This subject also aims to develop a critical thinking perspective on issues and findings in psychological research.
Read moreThis subject deals with human development from birth to old age. You will learn about important developmental topics, including the impact of childhood adversities and drug/alcohol abuse on development, ADHD, dyslexia, autism, and emotional development. For your assessments, you will be able to choose a topic that aligns with your interests.
Read moreThis subject comprises an overview of issues pertaining to psychoactive drugs, especially drugs of abuse. Topics covered include the different classes of psychoactive drugs and their effects; the basis of drug actions in the brain; theories of drug addiction and alcoholism; substance abuse treatments; therapeutic uses of psychoactive drugs; and drugs and society. This subject also aims to develop a critical thinking perspective on issues and findings in drugs and alcohol research.
Read moreThis subject introduces students to the main psychosocial theories that influence sport, health and exercise in the community. The primary focus is on the understanding of psychological principles that underpin physical activity. Students will also consider the psychological factors that facilitate or impede participation and adherence in exercise programs.
Read moreThis subject aims to develop understanding of the interaction of the neuromuscular and skeletal system and how they lead to complex movements. Students will undertake activities to facilitate their learning to describe the shape, location and action of muscles, how joint shape influences movement, how movement causes the anatomical structures to adapt, and how anatomical structures influence sport performance and activities of daily living.
Read moreThis subject will provide students with the theoretical knowledge and practical skills required to understand and examine the basic laws of force and motion and how these apply to optimising human movement. In addition students will learn and apply techniques to mitigate injury risk in a variety of sporting activities as well as activities of daily living. The subject focuses on the mechanical basis of human movement, with an emphasis on understanding the concepts of linear and angular kinematics (e.g., position, displacement, velocity and acceleration), and projectile motion, linear and angular kinetics (e.g. forces, laws of motion, centre of mass, torque, and moments of inertia). Students will use this knowledge to address real-world exercise science applications in areas such as gait, fluid dynamics and resistance training via a variety of qualitative and quantitative analysis techniques.
Read moreThis subject will build upon and provide an integrative understanding of the physiological and biochemical responses that occur during exercise. Initially a systems approach will be adopted, followed by increasing attention upon the integration and regulation of the exercise response. Particular attention will be given to the physiological responses to isometric, dynamic exercise and control of ventilation at rest and during exercise.
Read moreThis subject focuses on the practical application of theories and mental skills and strategies that facilitate behaviour change to enhance health and physical activity, exercise and sport. The subject extends and builds upon the knowledge acquired in the preceding subject Sport, Health and Exercise Psychology.
Read moreThis subject will provide students with the knowledge and skills to design a basic evidence-based population intervention to increase physical activity and sporting engagement levels across the human lifespan. Students will develop a thorough understanding of how both exercise and sport can influence exercise capacity to positively impact on individual and population health, by reducing sedentary behaviour and positively impacting on associated chronic diseases as well as behavioural and biomedical risk factors. Chronic diseases addressed will include cardiovascular diseases, type II diabetes, obesity, asthma, cancer, osteoarthritis, osteoporosis, chronic obstructive pulmonary disease and mental health. Students will also develop an understanding of the epidemiology, aetiology and pathophysiology of these conditions and how they relate to different population groups and age cohorts. Emphasis will be on evidence-based practice with specific focus upon physical activity, exercise (type and dose) and sport as a non-pharmacological therapy using the Exercise is Medicine model and its application at all stages of the human lifespan.
Read moreThis subject equips students with the essential mathematical skills and techniques required for solving real world problems in various disciplines. Students will revise algebra and explore mathematical modelling techniques, solving complex problems (with and without technology) involving linear and non-linear functions, constraints and optimisation. Students will develop their critical thinking, problem-solving and communication skills, with an emphasis placed on interpretation and actionable decision-making.
Read moreStudents are encouraged to undertake an optional Major. This will replace sixty credit points (60CP) of directed elective subjects.
Students are encouraged to undertake an optional Minor. This will replace forty credit points (40CP) of directed elective subjects.
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Take the guess work out of planning your study schedule. Your program's study plan has been carefully curated to provide a clear guide on the sequential subjects to be studied in each semester of your program. Your study plan is designed around connected subject themes to equip you with the fundamental knowledge required as you progress through your course.